/**
* marked - a markdown parser
* Copyright (c) 2011-2021, Christopher Jeffrey. (MIT Licensed)
* https://github.com/markedjs/marked
*/
/**
* DO NOT EDIT THIS FILE
* The code in this file is generated from files in ./src/
*/
function createCommonjsModule(fn) {
var module = { exports: {} };
return fn(module, module.exports), module.exports;
}
var defaults = createCommonjsModule(function (module) {
function getDefaults() {
return {
baseUrl: null,
breaks: false,
gfm: true,
headerIds: true,
headerPrefix: '',
highlight: null,
langPrefix: 'language-',
mangle: true,
pedantic: false,
renderer: null,
sanitize: false,
sanitizer: null,
silent: false,
smartLists: false,
smartypants: false,
tokenizer: null,
walkTokens: null,
xhtml: false
};
}
function changeDefaults(newDefaults) {
module.exports.defaults = newDefaults;
}
module.exports = {
defaults: getDefaults(),
getDefaults,
changeDefaults
};
});
/**
* Helpers
*/
const escapeTest = /[&<>"']/;
const escapeReplace = /[&<>"']/g;
const escapeTestNoEncode = /[<>"']|&(?!#?\w+;)/;
const escapeReplaceNoEncode = /[<>"']|&(?!#?\w+;)/g;
const escapeReplacements = {
'&': '&',
'<': '<',
'>': '>',
'"': '"',
"'": '''
};
const getEscapeReplacement = (ch) => escapeReplacements[ch];
function escape(html, encode) {
if (encode) {
if (escapeTest.test(html)) {
return html.replace(escapeReplace, getEscapeReplacement);
}
} else {
if (escapeTestNoEncode.test(html)) {
return html.replace(escapeReplaceNoEncode, getEscapeReplacement);
}
}
return html;
}
const unescapeTest = /&(#(?:\d+)|(?:#x[0-9A-Fa-f]+)|(?:\w+));?/ig;
function unescape(html) {
// explicitly match decimal, hex, and named HTML entities
return html.replace(unescapeTest, (_, n) => {
n = n.toLowerCase();
if (n === 'colon') return ':';
if (n.charAt(0) === '#') {
return n.charAt(1) === 'x'
? String.fromCharCode(parseInt(n.substring(2), 16))
: String.fromCharCode(+n.substring(1));
}
return '';
});
}
const caret = /(^|[^\[])\^/g;
function edit(regex, opt) {
regex = regex.source || regex;
opt = opt || '';
const obj = {
replace: (name, val) => {
val = val.source || val;
val = val.replace(caret, '$1');
regex = regex.replace(name, val);
return obj;
},
getRegex: () => {
return new RegExp(regex, opt);
}
};
return obj;
}
const nonWordAndColonTest = /[^\w:]/g;
const originIndependentUrl = /^$|^[a-z][a-z0-9+.-]*:|^[?#]/i;
function cleanUrl(sanitize, base, href) {
if (sanitize) {
let prot;
try {
prot = decodeURIComponent(unescape(href))
.replace(nonWordAndColonTest, '')
.toLowerCase();
} catch (e) {
return null;
}
if (prot.indexOf('javascript:') === 0 || prot.indexOf('vbscript:') === 0 || prot.indexOf('data:') === 0) {
return null;
}
}
if (base && !originIndependentUrl.test(href)) {
href = resolveUrl(base, href);
}
try {
href = encodeURI(href).replace(/%25/g, '%');
} catch (e) {
return null;
}
return href;
}
const baseUrls = {};
const justDomain = /^[^:]+:\/*[^/]*$/;
const protocol = /^([^:]+:)[\s\S]*$/;
const domain = /^([^:]+:\/*[^/]*)[\s\S]*$/;
function resolveUrl(base, href) {
if (!baseUrls[' ' + base]) {
// we can ignore everything in base after the last slash of its path component,
// but we might need to add _that_
// https://tools.ietf.org/html/rfc3986#section-3
if (justDomain.test(base)) {
baseUrls[' ' + base] = base + '/';
} else {
baseUrls[' ' + base] = rtrim(base, '/', true);
}
}
base = baseUrls[' ' + base];
const relativeBase = base.indexOf(':') === -1;
if (href.substring(0, 2) === '//') {
if (relativeBase) {
return href;
}
return base.replace(protocol, '$1') + href;
} else if (href.charAt(0) === '/') {
if (relativeBase) {
return href;
}
return base.replace(domain, '$1') + href;
} else {
return base + href;
}
}
const noopTest = { exec: function noopTest() {} };
function merge(obj) {
let i = 1,
target,
key;
for (; i < arguments.length; i++) {
target = arguments[i];
for (key in target) {
if (Object.prototype.hasOwnProperty.call(target, key)) {
obj[key] = target[key];
}
}
}
return obj;
}
function splitCells(tableRow, count) {
// ensure that every cell-delimiting pipe has a space
// before it to distinguish it from an escaped pipe
const row = tableRow.replace(/\|/g, (match, offset, str) => {
let escaped = false,
curr = offset;
while (--curr >= 0 && str[curr] === '\\') escaped = !escaped;
if (escaped) {
// odd number of slashes means | is escaped
// so we leave it alone
return '|';
} else {
// add space before unescaped |
return ' |';
}
}),
cells = row.split(/ \|/);
let i = 0;
if (cells.length > count) {
cells.splice(count);
} else {
while (cells.length < count) cells.push('');
}
for (; i < cells.length; i++) {
// leading or trailing whitespace is ignored per the gfm spec
cells[i] = cells[i].trim().replace(/\\\|/g, '|');
}
return cells;
}
// Remove trailing 'c's. Equivalent to str.replace(/c*$/, '').
// /c*$/ is vulnerable to REDOS.
// invert: Remove suffix of non-c chars instead. Default falsey.
function rtrim(str, c, invert) {
const l = str.length;
if (l === 0) {
return '';
}
// Length of suffix matching the invert condition.
let suffLen = 0;
// Step left until we fail to match the invert condition.
while (suffLen < l) {
const currChar = str.charAt(l - suffLen - 1);
if (currChar === c && !invert) {
suffLen++;
} else if (currChar !== c && invert) {
suffLen++;
} else {
break;
}
}
return str.substr(0, l - suffLen);
}
function findClosingBracket(str, b) {
if (str.indexOf(b[1]) === -1) {
return -1;
}
const l = str.length;
let level = 0,
i = 0;
for (; i < l; i++) {
if (str[i] === '\\') {
i++;
} else if (str[i] === b[0]) {
level++;
} else if (str[i] === b[1]) {
level--;
if (level < 0) {
return i;
}
}
}
return -1;
}
function checkSanitizeDeprecation(opt) {
if (opt && opt.sanitize && !opt.silent) {
console.warn('marked(): sanitize and sanitizer parameters are deprecated since version 0.7.0, should not be used and will be removed in the future. Read more here: https://marked.js.org/#/USING_ADVANCED.md#options');
}
}
// copied from https://stackoverflow.com/a/5450113/806777
function repeatString(pattern, count) {
if (count < 1) {
return '';
}
let result = '';
while (count > 1) {
if (count & 1) {
result += pattern;
}
count >>= 1;
pattern += pattern;
}
return result + pattern;
}
var helpers = {
escape,
unescape,
edit,
cleanUrl,
resolveUrl,
noopTest,
merge,
splitCells,
rtrim,
findClosingBracket,
checkSanitizeDeprecation,
repeatString
};
const { defaults: defaults$1 } = defaults;
const {
rtrim: rtrim$1,
splitCells: splitCells$1,
escape: escape$1,
findClosingBracket: findClosingBracket$1
} = helpers;
function outputLink(cap, link, raw) {
const href = link.href;
const title = link.title ? escape$1(link.title) : null;
const text = cap[1].replace(/\\([\[\]])/g, '$1');
if (cap[0].charAt(0) !== '!') {
return {
type: 'link',
raw,
href,
title,
text
};
} else {
return {
type: 'image',
raw,
href,
title,
text: escape$1(text)
};
}
}
function indentCodeCompensation(raw, text) {
const matchIndentToCode = raw.match(/^(\s+)(?:```)/);
if (matchIndentToCode === null) {
return text;
}
const indentToCode = matchIndentToCode[1];
return text
.split('\n')
.map(node => {
const matchIndentInNode = node.match(/^\s+/);
if (matchIndentInNode === null) {
return node;
}
const [indentInNode] = matchIndentInNode;
if (indentInNode.length >= indentToCode.length) {
return node.slice(indentToCode.length);
}
return node;
})
.join('\n');
}
/**
* Tokenizer
*/
var Tokenizer_1 = class Tokenizer {
constructor(options) {
this.options = options || defaults$1;
}
space(src) {
const cap = this.rules.block.newline.exec(src);
if (cap) {
if (cap[0].length > 1) {
return {
type: 'space',
raw: cap[0]
};
}
return { raw: '\n' };
}
}
code(src) {
const cap = this.rules.block.code.exec(src);
if (cap) {
const text = cap[0].replace(/^ {1,4}/gm, '');
return {
type: 'code',
raw: cap[0],
codeBlockStyle: 'indented',
text: !this.options.pedantic
? rtrim$1(text, '\n')
: text
};
}
}
fences(src) {
const cap = this.rules.block.fences.exec(src);
if (cap) {
const raw = cap[0];
const text = indentCodeCompensation(raw, cap[3] || '');
return {
type: 'code',
raw,
lang: cap[2] ? cap[2].trim() : cap[2],
text
};
}
}
heading(src) {
const cap = this.rules.block.heading.exec(src);
if (cap) {
let text = cap[2].trim();
// remove trailing #s
if (/#$/.test(text)) {
const trimmed = rtrim$1(text, '#');
if (this.options.pedantic) {
text = trimmed.trim();
} else if (!trimmed || / $/.test(trimmed)) {
// CommonMark requires space before trailing #s
text = trimmed.trim();
}
}
return {
type: 'heading',
raw: cap[0],
depth: cap[1].length,
text: text
};
}
}
nptable(src) {
const cap = this.rules.block.nptable.exec(src);
if (cap) {
const item = {
type: 'table',
header: splitCells$1(cap[1].replace(/^ *| *\| *$/g, '')),
align: cap[2].replace(/^ *|\| *$/g, '').split(/ *\| */),
cells: cap[3] ? cap[3].replace(/\n$/, '').split('\n') : [],
raw: cap[0]
};
if (item.header.length === item.align.length) {
let l = item.align.length;
let i;
for (i = 0; i < l; i++) {
if (/^ *-+: *$/.test(item.align[i])) {
item.align[i] = 'right';
} else if (/^ *:-+: *$/.test(item.align[i])) {
item.align[i] = 'center';
} else if (/^ *:-+ *$/.test(item.align[i])) {
item.align[i] = 'left';
} else {
item.align[i] = null;
}
}
l = item.cells.length;
for (i = 0; i < l; i++) {
item.cells[i] = splitCells$1(item.cells[i], item.header.length);
}
return item;
}
}
}
hr(src) {
const cap = this.rules.block.hr.exec(src);
if (cap) {
return {
type: 'hr',
raw: cap[0]
};
}
}
blockquote(src) {
const cap = this.rules.block.blockquote.exec(src);
if (cap) {
const text = cap[0].replace(/^ *> ?/gm, '');
return {
type: 'blockquote',
raw: cap[0],
text
};
}
}
list(src) {
const cap = this.rules.block.list.exec(src);
if (cap) {
let raw = cap[0];
const bull = cap[2];
const isordered = bull.length > 1;
const list = {
type: 'list',
raw,
ordered: isordered,
start: isordered ? +bull.slice(0, -1) : '',
loose: false,
items: []
};
// Get each top-level item.
const itemMatch = cap[0].match(this.rules.block.item);
let next = false,
item,
space,
bcurr,
bnext,
addBack,
loose,
istask,
ischecked,
endMatch;
let l = itemMatch.length;
bcurr = this.rules.block.listItemStart.exec(itemMatch[0]);
for (let i = 0; i < l; i++) {
item = itemMatch[i];
raw = item;
if (!this.options.pedantic) {
// Determine if current item contains the end of the list
endMatch = item.match(new RegExp('\\n\\s*\\n {0,' + (bcurr[0].length - 1) + '}\\S'));
if (endMatch) {
addBack = item.length - endMatch.index + itemMatch.slice(i + 1).join('\n').length;
list.raw = list.raw.substring(0, list.raw.length - addBack);
item = item.substring(0, endMatch.index);
raw = item;
l = i + 1;
}
}
// Determine whether the next list item belongs here.
// Backpedal if it does not belong in this list.
if (i !== l - 1) {
bnext = this.rules.block.listItemStart.exec(itemMatch[i + 1]);
if (
!this.options.pedantic
? bnext[1].length >= bcurr[0].length || bnext[1].length > 3
: bnext[1].length > bcurr[1].length
) {
// nested list or continuation
itemMatch.splice(i, 2, itemMatch[i] + (!this.options.pedantic && bnext[1].length < bcurr[0].length && !itemMatch[i].match(/\n$/) ? '' : '\n') + itemMatch[i + 1]);
i--;
l--;
continue;
} else if (
// different bullet style
!this.options.pedantic || this.options.smartLists
? bnext[2][bnext[2].length - 1] !== bull[bull.length - 1]
: isordered === (bnext[2].length === 1)
) {
addBack = itemMatch.slice(i + 1).join('\n').length;
list.raw = list.raw.substring(0, list.raw.length - addBack);
i = l - 1;
}
bcurr = bnext;
}
// Remove the list item's bullet
// so it is seen as the next token.
space = item.length;
item = item.replace(/^ *([*+-]|\d+[.)]) ?/, '');
// Outdent whatever the
// list item contains. Hacky.
if (~item.indexOf('\n ')) {
space -= item.length;
item = !this.options.pedantic
? item.replace(new RegExp('^ {1,' + space + '}', 'gm'), '')
: item.replace(/^ {1,4}/gm, '');
}
// trim item newlines at end
item = rtrim$1(item, '\n');
if (i !== l - 1) {
raw = raw + '\n';
}
// Determine whether item is loose or not.
// Use: /(^|\n)(?! )[^\n]+\n\n(?!\s*$)/
// for discount behavior.
loose = next || /\n\n(?!\s*$)/.test(raw);
if (i !== l - 1) {
next = raw.slice(-2) === '\n\n';
if (!loose) loose = next;
}
if (loose) {
list.loose = true;
}
// Check for task list items
if (this.options.gfm) {
istask = /^\[[ xX]\] /.test(item);
ischecked = undefined;
if (istask) {
ischecked = item[1] !== ' ';
item = item.replace(/^\[[ xX]\] +/, '');
}
}
list.items.push({
type: 'list_item',
raw,
task: istask,
checked: ischecked,
loose: loose,
text: item
});
}
return list;
}
}
html(src) {
const cap = this.rules.block.html.exec(src);
if (cap) {
return {
type: this.options.sanitize
? 'paragraph'
: 'html',
raw: cap[0],
pre: !this.options.sanitizer
&& (cap[1] === 'pre' || cap[1] === 'script' || cap[1] === 'style'),
text: this.options.sanitize ? (this.options.sanitizer ? this.options.sanitizer(cap[0]) : escape$1(cap[0])) : cap[0]
};
}
}
def(src) {
const cap = this.rules.block.def.exec(src);
if (cap) {
if (cap[3]) cap[3] = cap[3].substring(1, cap[3].length - 1);
const tag = cap[1].toLowerCase().replace(/\s+/g, ' ');
return {
tag,
raw: cap[0],
href: cap[2],
title: cap[3]
};
}
}
table(src) {
const cap = this.rules.block.table.exec(src);
if (cap) {
const item = {
type: 'table',
header: splitCells$1(cap[1].replace(/^ *| *\| *$/g, '')),
align: cap[2].replace(/^ *|\| *$/g, '').split(/ *\| */),
cells: cap[3] ? cap[3].replace(/\n$/, '').split('\n') : []
};
if (item.header.length === item.align.length) {
item.raw = cap[0];
let l = item.align.length;
let i;
for (i = 0; i < l; i++) {
if (/^ *-+: *$/.test(item.align[i])) {
item.align[i] = 'right';
} else if (/^ *:-+: *$/.test(item.align[i])) {
item.align[i] = 'center';
} else if (/^ *:-+ *$/.test(item.align[i])) {
item.align[i] = 'left';
} else {
item.align[i] = null;
}
}
l = item.cells.length;
for (i = 0; i < l; i++) {
item.cells[i] = splitCells$1(
item.cells[i].replace(/^ *\| *| *\| *$/g, ''),
item.header.length);
}
return item;
}
}
}
lheading(src) {
const cap = this.rules.block.lheading.exec(src);
if (cap) {
return {
type: 'heading',
raw: cap[0],
depth: cap[2].charAt(0) === '=' ? 1 : 2,
text: cap[1]
};
}
}
paragraph(src) {
const cap = this.rules.block.paragraph.exec(src);
if (cap) {
return {
type: 'paragraph',
raw: cap[0],
text: cap[1].charAt(cap[1].length - 1) === '\n'
? cap[1].slice(0, -1)
: cap[1]
};
}
}
text(src) {
const cap = this.rules.block.text.exec(src);
if (cap) {
return {
type: 'text',
raw: cap[0],
text: cap[0]
};
}
}
escape(src) {
const cap = this.rules.inline.escape.exec(src);
if (cap) {
return {
type: 'escape',
raw: cap[0],
text: escape$1(cap[1])
};
}
}
tag(src, inLink, inRawBlock) {
const cap = this.rules.inline.tag.exec(src);
if (cap) {
if (!inLink && /^/i.test(cap[0])) {
inLink = false;
}
if (!inRawBlock && /^<(pre|code|kbd|script)(\s|>)/i.test(cap[0])) {
inRawBlock = true;
} else if (inRawBlock && /^<\/(pre|code|kbd|script)(\s|>)/i.test(cap[0])) {
inRawBlock = false;
}
return {
type: this.options.sanitize
? 'text'
: 'html',
raw: cap[0],
inLink,
inRawBlock,
text: this.options.sanitize
? (this.options.sanitizer
? this.options.sanitizer(cap[0])
: escape$1(cap[0]))
: cap[0]
};
}
}
link(src) {
const cap = this.rules.inline.link.exec(src);
if (cap) {
const trimmedUrl = cap[2].trim();
if (!this.options.pedantic && /^$/.test(trimmedUrl))) {
return;
}
// ending angle bracket cannot be escaped
const rtrimSlash = rtrim$1(trimmedUrl.slice(0, -1), '\\');
if ((trimmedUrl.length - rtrimSlash.length) % 2 === 0) {
return;
}
} else {
// find closing parenthesis
const lastParenIndex = findClosingBracket$1(cap[2], '()');
if (lastParenIndex > -1) {
const start = cap[0].indexOf('!') === 0 ? 5 : 4;
const linkLen = start + cap[1].length + lastParenIndex;
cap[2] = cap[2].substring(0, lastParenIndex);
cap[0] = cap[0].substring(0, linkLen).trim();
cap[3] = '';
}
}
let href = cap[2];
let title = '';
if (this.options.pedantic) {
// split pedantic href and title
const link = /^([^'"]*[^\s])\s+(['"])(.*)\2/.exec(href);
if (link) {
href = link[1];
title = link[3];
}
} else {
title = cap[3] ? cap[3].slice(1, -1) : '';
}
href = href.trim();
if (/^$/.test(trimmedUrl))) {
// pedantic allows starting angle bracket without ending angle bracket
href = href.slice(1);
} else {
href = href.slice(1, -1);
}
}
return outputLink(cap, {
href: href ? href.replace(this.rules.inline._escapes, '$1') : href,
title: title ? title.replace(this.rules.inline._escapes, '$1') : title
}, cap[0]);
}
}
reflink(src, links) {
let cap;
if ((cap = this.rules.inline.reflink.exec(src))
|| (cap = this.rules.inline.nolink.exec(src))) {
let link = (cap[2] || cap[1]).replace(/\s+/g, ' ');
link = links[link.toLowerCase()];
if (!link || !link.href) {
const text = cap[0].charAt(0);
return {
type: 'text',
raw: text,
text
};
}
return outputLink(cap, link, cap[0]);
}
}
emStrong(src, maskedSrc, prevChar = '') {
let match = this.rules.inline.emStrong.lDelim.exec(src);
if (!match) return;
if (match[3] && prevChar.match(/[\p{L}\p{N}]/u)) return; // _ can't be between two alphanumerics. \p{L}\p{N} includes non-english alphabet/numbers as well
const nextChar = match[1] || match[2] || '';
if (!nextChar || (nextChar && (prevChar === '' || this.rules.inline.punctuation.exec(prevChar)))) {
const lLength = match[0].length - 1;
let rDelim, rLength, delimTotal = lLength, midDelimTotal = 0;
const endReg = match[0][0] === '*' ? this.rules.inline.emStrong.rDelimAst : this.rules.inline.emStrong.rDelimUnd;
endReg.lastIndex = 0;
maskedSrc = maskedSrc.slice(-1 * src.length + lLength); // Bump maskedSrc to same section of string as src (move to lexer?)
while ((match = endReg.exec(maskedSrc)) != null) {
rDelim = match[1] || match[2] || match[3] || match[4] || match[5] || match[6];
if (!rDelim) continue; // matched the first alternative in rules.js (skip the * in __abc*abc__)
rLength = rDelim.length;
if (match[3] || match[4]) { // found another Left Delim
delimTotal += rLength;
continue;
} else if (match[5] || match[6]) { // either Left or Right Delim
if (lLength % 3 && !((lLength + rLength) % 3)) {
midDelimTotal += rLength;
continue; // CommonMark Emphasis Rules 9-10
}
}
delimTotal -= rLength;
if (delimTotal > 0) continue; // Haven't found enough closing delimiters
// If this is the last rDelimiter, remove extra characters. *a*** -> *a*
if (delimTotal + midDelimTotal - rLength <= 0 && !maskedSrc.slice(endReg.lastIndex).match(endReg)) {
rLength = Math.min(rLength, rLength + delimTotal + midDelimTotal);
}
if (Math.min(lLength, rLength) % 2) {
return {
type: 'em',
raw: src.slice(0, lLength + match.index + rLength + 1),
text: src.slice(1, lLength + match.index + rLength)
};
}
if (Math.min(lLength, rLength) % 2 === 0) {
return {
type: 'strong',
raw: src.slice(0, lLength + match.index + rLength + 1),
text: src.slice(2, lLength + match.index + rLength - 1)
};
}
}
}
}
codespan(src) {
const cap = this.rules.inline.code.exec(src);
if (cap) {
let text = cap[2].replace(/\n/g, ' ');
const hasNonSpaceChars = /[^ ]/.test(text);
const hasSpaceCharsOnBothEnds = /^ /.test(text) && / $/.test(text);
if (hasNonSpaceChars && hasSpaceCharsOnBothEnds) {
text = text.substring(1, text.length - 1);
}
text = escape$1(text, true);
return {
type: 'codespan',
raw: cap[0],
text
};
}
}
br(src) {
const cap = this.rules.inline.br.exec(src);
if (cap) {
return {
type: 'br',
raw: cap[0]
};
}
}
del(src) {
const cap = this.rules.inline.del.exec(src);
if (cap) {
return {
type: 'del',
raw: cap[0],
text: cap[2]
};
}
}
autolink(src, mangle) {
const cap = this.rules.inline.autolink.exec(src);
if (cap) {
let text, href;
if (cap[2] === '@') {
text = escape$1(this.options.mangle ? mangle(cap[1]) : cap[1]);
href = 'mailto:' + text;
} else {
text = escape$1(cap[1]);
href = text;
}
return {
type: 'link',
raw: cap[0],
text,
href,
tokens: [
{
type: 'text',
raw: text,
text
}
]
};
}
}
url(src, mangle) {
let cap;
if (cap = this.rules.inline.url.exec(src)) {
let text, href;
if (cap[2] === '@') {
text = escape$1(this.options.mangle ? mangle(cap[0]) : cap[0]);
href = 'mailto:' + text;
} else {
// do extended autolink path validation
let prevCapZero;
do {
prevCapZero = cap[0];
cap[0] = this.rules.inline._backpedal.exec(cap[0])[0];
} while (prevCapZero !== cap[0]);
text = escape$1(cap[0]);
if (cap[1] === 'www.') {
href = 'http://' + text;
} else {
href = text;
}
}
return {
type: 'link',
raw: cap[0],
text,
href,
tokens: [
{
type: 'text',
raw: text,
text
}
]
};
}
}
inlineText(src, inRawBlock, smartypants) {
const cap = this.rules.inline.text.exec(src);
if (cap) {
let text;
if (inRawBlock) {
text = this.options.sanitize ? (this.options.sanitizer ? this.options.sanitizer(cap[0]) : escape$1(cap[0])) : cap[0];
} else {
text = escape$1(this.options.smartypants ? smartypants(cap[0]) : cap[0]);
}
return {
type: 'text',
raw: cap[0],
text
};
}
}
};
const {
noopTest: noopTest$1,
edit: edit$1,
merge: merge$1
} = helpers;
/**
* Block-Level Grammar
*/
const block = {
newline: /^(?: *(?:\n|$))+/,
code: /^( {4}[^\n]+(?:\n(?: *(?:\n|$))*)?)+/,
fences: /^ {0,3}(`{3,}(?=[^`\n]*\n)|~{3,})([^\n]*)\n(?:|([\s\S]*?)\n)(?: {0,3}\1[~`]* *(?:\n+|$)|$)/,
hr: /^ {0,3}((?:- *){3,}|(?:_ *){3,}|(?:\* *){3,})(?:\n+|$)/,
heading: /^ {0,3}(#{1,6})(?=\s|$)(.*)(?:\n+|$)/,
blockquote: /^( {0,3}> ?(paragraph|[^\n]*)(?:\n|$))+/,
list: /^( {0,3})(bull) [\s\S]+?(?:hr|def|\n{2,}(?! )(?! {0,3}bull )\n*|\s*$)/,
html: '^ {0,3}(?:' // optional indentation
+ '<(script|pre|style)[\\s>][\\s\\S]*?(?:\\1>[^\\n]*\\n+|$)' // (1)
+ '|comment[^\\n]*(\\n+|$)' // (2)
+ '|<\\?[\\s\\S]*?(?:\\?>\\n*|$)' // (3)
+ '|\\n*|$)' // (4)
+ '|\\n*|$)' // (5)
+ '|?(tag)(?: +|\\n|/?>)[\\s\\S]*?(?:\\n{2,}|$)' // (6)
+ '|<(?!script|pre|style)([a-z][\\w-]*)(?:attribute)*? */?>(?=[ \\t]*(?:\\n|$))[\\s\\S]*?(?:\\n{2,}|$)' // (7) open tag
+ '|(?!script|pre|style)[a-z][\\w-]*\\s*>(?=[ \\t]*(?:\\n|$))[\\s\\S]*?(?:\\n{2,}|$)' // (7) closing tag
+ ')',
def: /^ {0,3}\[(label)\]: *\n? *([^\s>]+)>?(?:(?: +\n? *| *\n *)(title))? *(?:\n+|$)/,
nptable: noopTest$1,
table: noopTest$1,
lheading: /^([^\n]+)\n {0,3}(=+|-+) *(?:\n+|$)/,
// regex template, placeholders will be replaced according to different paragraph
// interruption rules of commonmark and the original markdown spec:
_paragraph: /^([^\n]+(?:\n(?!hr|heading|lheading|blockquote|fences|list|html| +\n)[^\n]+)*)/,
text: /^[^\n]+/
};
block._label = /(?!\s*\])(?:\\[\[\]]|[^\[\]])+/;
block._title = /(?:"(?:\\"?|[^"\\])*"|'[^'\n]*(?:\n[^'\n]+)*\n?'|\([^()]*\))/;
block.def = edit$1(block.def)
.replace('label', block._label)
.replace('title', block._title)
.getRegex();
block.bullet = /(?:[*+-]|\d{1,9}[.)])/;
block.item = /^( *)(bull) ?[^\n]*(?:\n(?! *bull ?)[^\n]*)*/;
block.item = edit$1(block.item, 'gm')
.replace(/bull/g, block.bullet)
.getRegex();
block.listItemStart = edit$1(/^( *)(bull) */)
.replace('bull', block.bullet)
.getRegex();
block.list = edit$1(block.list)
.replace(/bull/g, block.bullet)
.replace('hr', '\\n+(?=\\1?(?:(?:- *){3,}|(?:_ *){3,}|(?:\\* *){3,})(?:\\n+|$))')
.replace('def', '\\n+(?=' + block.def.source + ')')
.getRegex();
block._tag = 'address|article|aside|base|basefont|blockquote|body|caption'
+ '|center|col|colgroup|dd|details|dialog|dir|div|dl|dt|fieldset|figcaption'
+ '|figure|footer|form|frame|frameset|h[1-6]|head|header|hr|html|iframe'
+ '|legend|li|link|main|menu|menuitem|meta|nav|noframes|ol|optgroup|option'
+ '|p|param|section|source|summary|table|tbody|td|tfoot|th|thead|title|tr'
+ '|track|ul';
block._comment = /|$)/;
block.html = edit$1(block.html, 'i')
.replace('comment', block._comment)
.replace('tag', block._tag)
.replace('attribute', / +[a-zA-Z:_][\w.:-]*(?: *= *"[^"\n]*"| *= *'[^'\n]*'| *= *[^\s"'=<>`]+)?/)
.getRegex();
block.paragraph = edit$1(block._paragraph)
.replace('hr', block.hr)
.replace('heading', ' {0,3}#{1,6} ')
.replace('|lheading', '') // setex headings don't interrupt commonmark paragraphs
.replace('blockquote', ' {0,3}>')
.replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n')
.replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt
.replace('html', '?(?:tag)(?: +|\\n|/?>)|<(?:script|pre|style|!--)')
.replace('tag', block._tag) // pars can be interrupted by type (6) html blocks
.getRegex();
block.blockquote = edit$1(block.blockquote)
.replace('paragraph', block.paragraph)
.getRegex();
/**
* Normal Block Grammar
*/
block.normal = merge$1({}, block);
/**
* GFM Block Grammar
*/
block.gfm = merge$1({}, block.normal, {
nptable: '^ *([^|\\n ].*\\|.*)\\n' // Header
+ ' {0,3}([-:]+ *\\|[-| :]*)' // Align
+ '(?:\\n((?:(?!\\n|hr|heading|blockquote|code|fences|list|html).*(?:\\n|$))*)\\n*|$)', // Cells
table: '^ *\\|(.+)\\n' // Header
+ ' {0,3}\\|?( *[-:]+[-| :]*)' // Align
+ '(?:\\n *((?:(?!\\n|hr|heading|blockquote|code|fences|list|html).*(?:\\n|$))*)\\n*|$)' // Cells
});
block.gfm.nptable = edit$1(block.gfm.nptable)
.replace('hr', block.hr)
.replace('heading', ' {0,3}#{1,6} ')
.replace('blockquote', ' {0,3}>')
.replace('code', ' {4}[^\\n]')
.replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n')
.replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt
.replace('html', '?(?:tag)(?: +|\\n|/?>)|<(?:script|pre|style|!--)')
.replace('tag', block._tag) // tables can be interrupted by type (6) html blocks
.getRegex();
block.gfm.table = edit$1(block.gfm.table)
.replace('hr', block.hr)
.replace('heading', ' {0,3}#{1,6} ')
.replace('blockquote', ' {0,3}>')
.replace('code', ' {4}[^\\n]')
.replace('fences', ' {0,3}(?:`{3,}(?=[^`\\n]*\\n)|~{3,})[^\\n]*\\n')
.replace('list', ' {0,3}(?:[*+-]|1[.)]) ') // only lists starting from 1 can interrupt
.replace('html', '?(?:tag)(?: +|\\n|/?>)|<(?:script|pre|style|!--)')
.replace('tag', block._tag) // tables can be interrupted by type (6) html blocks
.getRegex();
/**
* Pedantic grammar (original John Gruber's loose markdown specification)
*/
block.pedantic = merge$1({}, block.normal, {
html: edit$1(
'^ *(?:comment *(?:\\n|\\s*$)'
+ '|<(tag)[\\s\\S]+?\\1> *(?:\\n{2,}|\\s*$)' // closed tag
+ '| ' + text + '
\n';
}
return ''
+ (escaped ? code : escape$2(code, true))
+ '
\n';
}
blockquote(quote) {
return ''
+ (escaped ? code : escape$2(code, true))
+ '
\n' + quote + '
\n';
}
html(html) {
return html;
}
heading(text, level, raw, slugger) {
if (this.options.headerIds) {
return '
\n' : '
\n';
}
list(body, ordered, start) {
const type = ordered ? 'ol' : 'ul',
startatt = (ordered && start !== 1) ? (' start="' + start + '"') : '';
return '<' + type + startatt + '>\n' + body + '' + type + '>\n';
}
listitem(text) {
return '
' + text + '
';
}
br() {
return this.options.xhtml ? 'An error occurred:
' + escape$3(e.message + '', true) + ''; } throw e; } } /** * Options */ marked.options = marked.setOptions = function(opt) { merge$2(marked.defaults, opt); changeDefaults(marked.defaults); return marked; }; marked.getDefaults = getDefaults; marked.defaults = defaults$5; /** * Use Extension */ marked.use = function(extension) { const opts = merge$2({}, extension); if (extension.renderer) { const renderer = marked.defaults.renderer || new Renderer_1(); for (const prop in extension.renderer) { const prevRenderer = renderer[prop]; renderer[prop] = (...args) => { let ret = extension.renderer[prop].apply(renderer, args); if (ret === false) { ret = prevRenderer.apply(renderer, args); } return ret; }; } opts.renderer = renderer; } if (extension.tokenizer) { const tokenizer = marked.defaults.tokenizer || new Tokenizer_1(); for (const prop in extension.tokenizer) { const prevTokenizer = tokenizer[prop]; tokenizer[prop] = (...args) => { let ret = extension.tokenizer[prop].apply(tokenizer, args); if (ret === false) { ret = prevTokenizer.apply(tokenizer, args); } return ret; }; } opts.tokenizer = tokenizer; } if (extension.walkTokens) { const walkTokens = marked.defaults.walkTokens; opts.walkTokens = (token) => { extension.walkTokens(token); if (walkTokens) { walkTokens(token); } }; } marked.setOptions(opts); }; /** * Run callback for every token */ marked.walkTokens = function(tokens, callback) { for (const token of tokens) { callback(token); switch (token.type) { case 'table': { for (const cell of token.tokens.header) { marked.walkTokens(cell, callback); } for (const row of token.tokens.cells) { for (const cell of row) { marked.walkTokens(cell, callback); } } break; } case 'list': { marked.walkTokens(token.items, callback); break; } default: { if (token.tokens) { marked.walkTokens(token.tokens, callback); } } } } }; /** * Parse Inline */ marked.parseInline = function(src, opt) { // throw error in case of non string input if (typeof src === 'undefined' || src === null) { throw new Error('marked.parseInline(): input parameter is undefined or null'); } if (typeof src !== 'string') { throw new Error('marked.parseInline(): input parameter is of type ' + Object.prototype.toString.call(src) + ', string expected'); } opt = merge$2({}, marked.defaults, opt || {}); checkSanitizeDeprecation$1(opt); try { const tokens = Lexer_1.lexInline(src, opt); if (opt.walkTokens) { marked.walkTokens(tokens, opt.walkTokens); } return Parser_1.parseInline(tokens, opt); } catch (e) { e.message += '\nPlease report this to https://github.com/markedjs/marked.'; if (opt.silent) { return '
An error occurred:
' + escape$3(e.message + '', true) + ''; } throw e; } }; /** * Expose */ marked.Parser = Parser_1; marked.parser = Parser_1.parse; marked.Renderer = Renderer_1; marked.TextRenderer = TextRenderer_1; marked.Lexer = Lexer_1; marked.lexer = Lexer_1.lex; marked.Tokenizer = Tokenizer_1; marked.Slugger = Slugger_1; marked.parse = marked; var marked_1 = marked; export default marked_1;